Annals of Occupational and Environmental Medicine

Silica exposure and work-relatedness evaluation for occupational cancer in Korea: Hyoung-Ryoul Kim, Boowook Kim, Bum Seak Jo, Ji-Won Lee; Ann Occup Environ Med 2018;30:4. Published online January 31, 2018; DOI: https://doi.org/10.1186/s40557-018-0216-1

Crystalline silica has been classified as a definite carcinogen (Group 1) causing lung cancer by the International Agency for Research on Cancer (IARC). In Korea, crystalline silica has been the most common causal agent for workers to apply to the Korea Workers’ Compensation and Welfare Service (KWCWS). We used KWCWS data to evaluate workers’ crystalline silica exposure levels according to their occupations and industries, and reviewed research papers describing the dose-response relationship between cumulative exposure levels and lung cancer incidence. In addition, we reviewed lung cancer cases accepted by the KWCWS, and suggest new criteria for defining occupational cancer caused by crystalline silica in Korea. Rather than confining to miners, we propose recognizing occupational lung cancer whenever workers with pneumoconiosis develop lung cancer, regardless of their industry. Simultaneous exposure and lag time should also be considered in evaluations of work-relatedness.

Citations

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The association between lung cancer and silicosis: from theory to practice in occupational medicine
Marina Ruxandra Oțelea
Romanian Journal of Occupational Medicine.2022; 73(1): 45. CrossRef
Occupational exposure to respirable crystalline silica in municipal household waste collection and road cleaning workers
Boowook Kim, Eunyoung Kim, Wonseok Cha, Jungah Shin, Byung-Soon Choi, Daeho Kim, Miyeon Kim, Wonyang Kang, Sungwon Choi
Scientific Reports.2021;[Epub] CrossRef
Neuroprotective effects of sonochemical- synthesized SiO2 nanoparticles in vivo models of ischemic/reperfusion injury in stroke
Chengcheng Cui, Dayong Shen, Dandan Zuo, Xinchun Ye
Arabian Journal of Chemistry.2021; 14(11): 103416. CrossRef
Break-even Analysis of Respirable Crystalline Silica (RCS) Exposure Interventions in the Construction Sector
Emile Tompa, Amirabbas Mofidi, Chaojie Song, Victoria Arrandale, Katherine J. Jardine, Hugh Davies, Thomas Tenkate, Paul A. Demers
Journal of Occupational & Environmental Medicine.2021; 63(11): e792. CrossRef
Subradiological silicosis
Rodney Ehrlich, Jill Murray, David Rees
American Journal of Industrial Medicine.2018; 61(11): 877. CrossRef

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Systemic sclerosis due to crystalline silica exposure among jewelry workers in Korea: two case reports: Jae Yoon Kim, Sang Yoon Do, Young Hoon Moon, Chul Gab Lee, Yun Sung Kim, Byung Soon Choi, Eun-A Kim, Han Soo Song; Ann Occup Environ Med 2017;29:18. Published online June 19, 2017; DOI: https://doi.org/10.1186/s40557-017-0176-x

Abstract PDF PubReader ePub

Background

Occupational exposure to crystalline silica is a potential risk factor for various systemic autoimmune diseases including systemic sclerosis. The etiology of systemic sclerosis is not conclusively known, but there are epidemiological studies that show the relationship between exposure to crystalline silica and risk of systemic sclerosis. Here we report, for the first time, two cases of crystalline silica-related systemic sclerosis in patients who worked in crystal processing in the jewelry-manufacturing field.

Case presentation

Case 1 is a 57-year-old man who had worked mainly in crystal processing for multiple jewelry-processing companies for 17 years, since the age of 15 years. He contracted tuberculosis at the age of 25 years and showed Raynaud’s phenomenon of both the hands and feet at age 32 years. Digital cyanosis and sclerosis developed at approximately age 41 years. The patient was diagnosed with systemic sclerosis at age 48 years.

Case 2 is a 52-year-old man who worked in crystal processing for various jewelry-processing companies for 7 years, since the age of 23 years. He first showed signs of cyanosis in the third and fourth digits of both hands at age 32 years, was diagnosed with Raynaud’s syndrome at age 37 years, and was diagnosed with systemic sclerosis at age 38 years.

Crystal processing is a detailed process that involves slabbing and trimming the selected amethyst and quartz crystals, which requires close proximity of the worker’s face with the target area. In the 1980s and 1990s, the working hours were 12 h per day, and the working environment involved 15 workers crowded into a small, 70-m² space with poor ventilation.

Conclusion

Two workers who processed crystals with a maximum crystalline silica content of 56.66% developed systemic sclerosis. Considering the epidemiological and experimental evidence, exposure to crystalline silica dust was an important risk factor for systemic sclerosis. An active intervention is necessary to reduce exposure in similar exposure groups in the field of jewelry processing.

Citations

Citations to this article as recorded by

Systemic Sclerosis in Males—Deciphering the Enigma of Erasmus Syndrome
Reena K. Sharma, Mudita Gupta
Indian Journal of Dermatology.2024; 69(1): 48. CrossRef
Silikose und systemische Sklerose bei einem Steinmetz
Ulrike Brückner, Elisabeth Bonifer, Joachim Schneider
Zentralblatt für Arbeitsmedizin, Arbeitsschutz und Ergonomie.2023; 73(5): 247. CrossRef
A Pathological Study of Acute Pulmonary Toxicity Induced by Inhaled Kanto Loam Powder
Yoshimi Kobayashi, Akinori Shimada, Takehito Morita, Kenichiro Inoue, Hirohisa Takano
International Journal of Molecular Sciences.2018; 19(2): 416. CrossRef
Erasmus syndrome: systemic sclerosis and silicosis co‐occurrence
Zühre Sarı Sürmelİ, Nurdan Oruçoğlu
International Journal of Rheumatic Diseases.2018; 21(6): 1326. CrossRef

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Two Cases of Lung Cancer in Foundry Workers: Inchul Jeong, Innshil Ryu, Boowook Kim, Inhyo Park, Jong-Uk Won, Eun-A Kim, Inah Kim, Jaehoon Roh; Ann Occup Environ Med 2013;25:16-16. Published online September 16, 2013; DOI: https://doi.org/10.1186/2052-4374-25-16

Abstract PDF PubReader ePub: Background
Iron and steel foundry workers are exposed to various toxic and carcinogenic substances including crystalline silica, polycyclic aromatic hydrocarbons, and arsenic. Studies have been conducted on lung cancer in iron and steel founding workers and the concentration of crystalline silica in foundries; however, the concentration of crystalline silica and cases of lung cancer in a single foundry has never been reported in Korea. Therefore, the authors report two cases of lung cancer and concentration of crystalline silica by the X-ray diffraction method.
Case presentation
A 55-year-old blasting and grinding worker who worked in a foundry for 33 years was diagnosed with lung cancer. Another 64-year-old forklift driver who worked in foundries for 39 years was also diagnosed with lung cancer. Shot blast operatives were exposed to the highest level of respirable quartz (0.412 mg/m³), and a forklift driver was exposed to 0.223 mg/m³.
Conclusions
The lung cancer of the two workers is very likely due to occupationally related exposure given their occupational history, the level of exposure to crystalline silica, and epidemiologic evidence. Further studies on the concentration of crystalline silica in foundries and techniques to reduce the crystalline silica concentration are required.

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Autoproliferation of Fibroblast by Exposure to Crystalline Silica - Evaluation by H2O2 and PDGF-AA and TGF beta: Byoung Young Ahn, Kyoung Ah Kim, Je Hyeok Mun, Jin Sook Jeong, Eun Kyung Kim, Young Lim; Korean Journal of Occupational and Environmental Medicine 2000;12(2):209-217. Published online June 30, 2000; DOI: https://doi.org/10.35371/kjoem.2000.12.2.209

Abstract PDF: OBJECTIVES
The aim of this study is to find out the activity of autoproliferation of ratfibroblast exposed to crystalline silica and the role of mediators secreted from rat fibroblast.
METHODS
The effect of alpha-quartz on production of growth factor (platelet-derived growth factor-AA and transforming growth factor beta)from rat fibroblasts were evaluated by ELISA and immunocytochemical analysis. Gene expression of these growth factors in rat fibrobast exposed to crystalline silica was evaluated by RT-PCR. Furthermore, fibroblast proliferation by culture supernatant of rat fibroblast was assayed by the neutral red test.
RESULTS
The amounts of H2O2 and growth factors synthesized in rat fibroblasts were significantly increased by the stimulation of crystalline silica(alpha-quartz), which showed the dose-dependent manner to the concentration of alpha-quartz with the maximum response at the dosage of 100 microgram/cm2. The result of RT-PCR demonstrated that alpha-quartz induced gene expression of PDGF-AA and TGFbeta in rat fibroblast. We also found that supernatant of alpha-quartz-cocultured rat fibroblast induced a significant proliferation of fibroblast.
CONCLUSION
Crystalline silica directly induce functional change in fibroblast such as increased release of reactive oxygen species and growth factors. The products of these functional change promote fibroblast proliferation via autocrine loop.

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